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Best practices for network security governance in AWS and hybrid network environments Webinars Overcoming the Hybrid Cloud Policy Management Challenge: A Panel Discussion Visibility May 27, 2020 Omer Ganot Product Manager Yonatan Klein irector of Product Management Relevant resources State of cloud security: Concerns, challenges, and incidents Read Document Demystifying Network Security in Hybrid Cloud Environments Keep Reading A Pragmatic Approach to Network Security Across Your Hybrid Cloud Environment Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

What are firewall logs and why they are important Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. What are firewall logs and why are they important? Network setups of the past consisted solely of servers in a server closet. Today, modern IT infrastructure consists of three main components: on-premises data centers, public clouds, and their connecting infrastructure. This new reality has created complex systems with multiple challenges. Regulations have become stricter, and organizations are under pressure to detect security threats fast. When faced with an issue, network security professionals must pinpoint the root cause, and to do that, they need evidence—which means investigating firewall logs. What is a firewall log? A firewall log is a record of the network connections (allowed and blocked) that a firewall inspects, capturing each event between your systems and the internet. Depending on the configuration, a firewall log may include all inspected traffic or only what the firewall allows to pass into the environment (what “gets past” the firewall). Each entry of a firewall log will specify the following data: Field Description Timestamp Exact date and time traffic was processed Action Decision made by the firewall (Allow, Deny, Drop) Rule ID Specific firewall rule that triggered the action Source IP & Port IP address and port from where traffic originated Destination IP & Port IP address and port that the traffic was trying to reach Protocol Network protocol used (TCP, UDP, ICMP) Bytes/Session Amount of data transferred during a session Zones Source and destination security zones (Trust, Untrust, DMZ) Beyond the question of “What is a firewall log?” there is also the question of where to store them. Organizations have a few options here. Firewall logs can: Stay on the firewall device Go to a basic syslog server for storage Undergo analysis via a security information and event management (SIEM) tool What is a firewall review? The process of reviewing a firewall is akin to a scheduled maintenance procedure that updates the rulebook of your firewall system. Things to be on the lookout for include: Duplicate rules Outdated server rules Overly broad rules that can lead to security vulnerabilities What is a firewall log review? Ready to play detective? Because a firewall log review requires just that. Analyzing firewall data is a continuous process of extracting relevant information from the firewall logs, i.e., the firewall’s own journal of events.. The key is to identify specific patterns that indicate security incidents, performance issues, or non-compliance events. This, in turn, requires centralizing logs with synchronized device clocks so that timelines line up (i.e., NTP across firewalls, servers, and your SIEM) and putting controls in place to preserve log integrity. How to interpret firewall logs in 6 steps So now that it is clear what a firewall log is—as well as how to store these logs and review them—the next step is knowing how to interpret them. Successfully extracting the necessary data from your firewall logs is a six-step process: Collect logs in one place: The central system needs to receive logs from all firewalls that extend from the data center to the cloud. Each entry missing from your logs allows malicious actors to remain unseen, i.e., pose an unknown threat.. Figure out what's normal: To detect abnormal behavior, you must first create a baseline for normal activity, i.e., typical traffic patterns. Hunt for suspicious patterns: The official investigation begins! What to flag? Network scanning activity from a single IP address that attempts to access multiple ports and internal devices and makes scheduled connections to unverified external servers (beaconing). Add context: Context turns raw events into decisions. Enrich IPs and ports from your logs with: Asset inventory: What system and business app is this? User directories: Who owns/uses it? Threat intelligence: Is the source/destination risky? This enrichment helps determine impact and priority—not just “who/what,” but whether the activity is expected, whether the system is critical, and how urgently you need to respond. Investigate and act: Trigger an incident response plan: Validate findings Contain the incident (isolate the host, block indicators at the firewall). Collect forensics (packet captures, memory snapshot, log preservation) Eradicate the threat Recover systems, operations, and data (patches, credential resets, rule updates) Notify stakeholders Document the case for post‑incident review. Measure and improve: Learn from your results. Identify rules that are creating too much noise and clean them up. Most importantly, track how long it takes you to respond to incidents you find in your logs. How does AlgoSec help with firewall logs? Firewall log management across hybrid environments requires more than manual monitoring. It demands contextual understanding, automated processes, and permanent security measures. AlgoSec offers multiple features to combine all these components. It empowers your team to not only fully grasp what firewall logs are and their importance, but also helps you transition from event analysis to evidence-based remediation: AlgoSec Horizon : Security policy management via an approach based on business application, not a specific device. Offers complete monitoring of app connections between data centers and clouds, automated policy updates, and continuous compliance monitoring, connecting log traffic to actual application operations. Horizon Security Analyzer : Complete visibility into all firewalls to detect dangerous or unneeded rules. Optimizes rule bases by focusing on essential risk-related elements, resulting in less log data, improved signal quality, and faster review processes. Horizon FireFlow : Issue detection and response based on log data. Leverages automated workflows to execute risk and compliance assessments pre-deployment, complete with documentation; integrates with current ITSM systems (e.g., ServiceNow, BMC Remedy) so teams can perform change management tasks within a familiar environment. AlgoSec Cloud Enterprise (ACE) : A single policy framework for cloud and hybrid systems. Enables automated security group and cloud firewall rule management; performs 150+ cloud policy risk checks to deliver application-specific insights from cloud logs. Now is the time to convert your firewall logs into valuable business decisions. Request a demo to see AlgoSec in action today. 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Best practices for network security governance in AWS and hybrid network environments Webinars Cessation of Misconfigurations: Common Network Misconfiguration Risks & How to Avoid Them Avivi Siman-Tov, AlgoSec’s Director of Product | February 18, 2020 Misconfigurations aren’t simply inconvenient mistakes but serious security threats. According to Gartner, 99% of all firewall breaches will be caused by misconfigurations by 2020 and misconfigurations made OWASP’s list of Top 10 most critical web application security risks. A single change to a network device can have far-reaching effects on your business and create security holes for cybercriminals, impact your audits, and cause costly outages that bring your business to a standstill. In this webinar, Avivi Siman-Tov, AlgoSec’s Director of Product, will show examples of common misconfigurations, including device changes, business application connectivity changes, and data center migrations. He will also reveal specific techniques to help you avoid them. Watch the webinar to learn how to: Understand and map your entire network before you make a change Proactively assess the impact of a change to ensure it does not break connectivity, affect compliance or create a security hole and understand the impact of changes to your entire network Maximize the capabilities of network management automation to avoid common misconfigurations Avoid common mistakes when making changes to your network security devices February 18, 2020 Avivi Siman Tov Director of Product Relevant resources Firewall Rule Recertification - An Application-Centric Approach Keep Reading Securing & managing hybrid network security See Documentation Application first cloud security See Documentation Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Industry’s First Dynamic Analysis of 4 million Publicly Available Docker Hub Container Images Download PDF Download PDF Add a Title Add a Title Add a Title Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue Talk to a Skybox transition expert. Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Learn from expert-crafted firewall ruleset examples and best practices. Optimize your security posture with actionable guidance and improve your firewall configurations. Firewall ruleset examples & policy best practices Securing your network: guide to firewall rules examples Cyberattacks continue to rise globally as malicious actors tirelessly develop sophisticated tools and techniques to break through networks and security systems. With the digitalization of operations today and the increasing adoption of remote working, crucial business activities such as communication, data storage, and data transmission are now primarily done digitally. While this brings numerous advantages – allowing easy usability and scalability, enhancing collaboration, and reducing the risks of data loss – businesses have to deal with various security risks, such as data breaches and cyberattacks from hackers. Organizations must provide adequate network security to keep sensitive data safe and ensure their network is usable, trustworthy, and optimized for maximum productivity across all channels. Schedule a Demo Firewalls and your network Your network and systems (software and hardware) comprise the IT infrastructure through which you operate and manage your enterprise’s IT services. Every IT system regularly receives and transmits internet traffic, and businesses must ensure that only trusted and authorized traffic penetrates their network to maintain security. All unwanted traffic must be prevented from accessing your operating system as it poses a huge risk to network security. Malicious actors attempting to penetrate your system often send virus-carrying inbound traffic to your network. However, with an effective firewall, you can filter all traffic and block unwanted and harmful traffic from penetrating your network. A firewall serves as a barrier between computers, networks, and other systems in your IT landscape, preventing unauthorized traffic from penetrating. Schedule a Demo What are firewall rules? The firewall is your first line of defense in network security against hackers, malware, and other threats. Firewall rules refer to access control mechanisms that stipulate how a firewall device should handle incoming and outgoing traffic in your network. They are instructions given to firewalls to help them know when to block or allow communication in your network. These instructions include destination or source IP addresses, protocols, port numbers, and services. A firewall ruleset is formed from a set of rules and it defines a unit of execution and sharing for the rules. Firewall rulesets typically include: A source address A source port A destination address A destination port A decision on whether to block or permit network traffic meeting those address and port criteria Schedule a Demo What are the most common firewall ruleset examples? There are thousands of rulesets that can be used to control how a firewall deals with network traffic. Some firewall rules are more common than others, as they tend to be fundamental when building a secure network. Here are some examples of firewall rules for common use cases: Enable internet access for only one computer in the local network and block access for all others This rule gives only one computer in the local network access to the internet, and blocks all others from accessing the internet. This example requires obtaining the IP address of the computer being granted access (i.e., source IP address) and the TCP protocol type. Two rules will be created: a Permit rule and a Deny rule. The permit rule allows the chosen computer the required access, while the deny rule blocks all other computers in the local network from internet access. Prevent direct access from the public network to the firewall This rule blocks access to your firewall from any public network, to protect it from hackers who can modify or delete your rules if they access your firewall directly. Once hackers manipulate your rules, unwanted traffic will penetrate your network, leading to data breaches or an interruption in operation. A Deny rule for any attempt to access the firewall from public networks will be created and enabled. Block internet access for only one computer in the local network This rule comes in handy if you do not want a specific computer in the local network to access the internet. You will need to create a Deny rule in which you set the IP address of the computer you wish to block from the internet, and the TCP protocol type. Block access to a specific website from a local network In this scenario we want to configure our firewall to deny access to a particular website from a local network. We first obtain the IP address or addresses of the website we wish to deny access to, and then create a Deny rule. One way to obtain a website’s IP address is by running the special command ‘nslookup ’ in your operating system’s command line (Windows, Linux, or others). Since websites can run on HTTP and HTTPS, we must create a Deny rule for each protocol type and indicate the destination IP address(es). Thus, the local network will be unable to access both the HTTP and HTTPS versions of the website. Allow a particular LAN computer to access only one specific website This example gives a local computer access to only one specified website. We obtain the IP address of the destination website and the source IP address (of the local computer). We create a Permit rule for the source IP address and the destination website, and a Deny rule for the source IP address and other websites, taking the TCP protocol types into account. Allow internet access to and from the local network using specific protocols (services) only This example allows your LAN computer to access the internet using specific protocols, such as SMTP, FTP, IPv6, SSH, IPv4, POP3, DNS, and IMAP; and blocks all other traffic Here we first create an “Allow” rule for the “Home segment,” where we use the value “Any” for the Source and Destination IP addresses. In the Protocol field provided, we choose the protocols through which our local computer can access the internet. Lastly, we create Deny rules where we enter the value “Any” for the Source and Destination IP addresses. In the Protocol field, we set the values TCP and UDP, thus blocking internet access for unspecified protocols. Allow remote control of your router This rule enables you to access, view, or change your Router Settings remotely (over the internet). Typically, access to routers from the internet is blocked by default. To set this rule, you need specific data such as your router username, WAN IP address, and password. It is crucial to note that this setting is unsafe for individuals who use public IP addresses. A similar use case is a rule enabling users to check a device’s availability on their network by allowing ICMP ping requests. Block access from a defined internet subnet or an external network You can set a rule that blocks access to your network from a defined internet subnet or an external network. This rule is especially important if you observed repeated attempts to access your router from unknown IP addresses within the same subnet. In this case, set a Deny rule for IP addresses of the subnet attempting to access your WAN port. Schedule a Demo What are examples of best practices for setting up firewall rules? It is expedient to follow best practices during firewall configuration to protect your network from intruders and hackers. Deploying industry-standard rules when setting up firewalls can improve the security of your network and system components. Below are examples of the best practices for setting up firewall rules. Document firewall rules across multiple devices Documenting all firewall rule configurations and updating them frequently across various devices is one of the best practices for staying ahead of attacks. New rules should be included based on security needs, and irrelevant rules should be deactivated to reduce the possibility of a loophole in your network. With documentation, administrators can review the rules frequently and make any required changes whenever a vulnerability is detected. Configure your firewall to block traffic by default Using a block or deny-by-default policy is the safest way to deal with suspicious traffic. Enterprises must be sure that all types of traffic entering their network are identified and trusted to avoid security threats. In addition, whenever a vulnerability arises in the system, blocking by default helps prevent hackers from taking advantage of loopholes before administrators can respond. Monitor firewall logs Monitoring firewall logs on a regular basis helps maintain network security. Administrators can quickly and easily track traffic flow across your network, identify suspicious activity, and implement effective solutions in a timely manner. Organizations with highly sophisticated infrastructure can aggregate logs from routers, servers, switches, and other components to a centralized platform for monitoring. Group firewall rules to minimize complexity and enhance performance Depending on the complexity of your network, you may need thousands of rules to achieve effective network security. This complicates your firewall rules and can be a huge challenge for administrators. However, by grouping rules based on similar characteristics like protocols, TCP ports, IP addresses, etc., you simplify them and boost overall performance. Implement least-privileged access In any organization, employees have various roles and may require different data to execute their tasks efficiently. As part of network security practices, it’s important to ensure each employee’s access to the network is restricted to the minimum privileges needed to execute their tasks. Only users who require access to a particular service or resource should have it, thus preventing unnecessary exposure of data. This practice significantly minimizes the risk of intentional and accidental unauthorized access to sensitive data. Schedule a Demo How do firewall policies differ from a network security policy? A network security policy outlines the overall rules, principles, and procedures for maintaining security on a computer network. The policy sets out the basic architecture of an organization’s network security environment, including details of how the security policies are implemented. The overall objective of network security policy is to protect a computer network against internal and external threats. Firewall policies are a sub-group of network security policies, and refer to policies that relate specifically to firewalls. Firewall policies have to do with rules for how firewalls should handle inbound and outbound traffic to ensure that malicious actors do not penetrate the network. A firewall policy determines the types of traffic that should flow through your network based on your organization’s network and information security policies. Schedule a Demo How can AlgoSec help with managing your firewall rules? Proper firewall configuration with effective rules and practices is crucial to building a formidable network security policy. Organizations must follow industry standards in configuring firewall rules and protecting their IT landscape from intruders and malicious actors. Firewall rules require regular review and update to maintain maximum protection against evolving threats and changing security demands. For many organizations, keeping up with these fast-paced security demands can be challenging, and that’s where AlgoSec comes in. AlgoSec helps with managing your firewall rules to ensure your network enjoys round-the-clock protection against internal and external security threats. From installation to maintenance, we assist you in setting up a resilient firewall that operates on the safest rulesets to keep your network safe against harmful traffic. We have dedicated tools that take away the burden of aggregating and analyzing logs from the components in your network, including computers, routers, web servers, switches, etc. We determine which new rules are needed for effective firewall network security policy management based on data from your firewall devices and security trends. AlgoSec will ensure your firewall stays compliant with best practices by applying our automated auditing solution, which identifies gaps in your firewall rules and enables you to remediate them before hackers take advantage of such loopholes. Schedule a Demo Select a size Securing your network: guide to firewall rules examples Firewalls and your network What are firewall rules? What are the most common firewall ruleset examples? What are examples of best practices for setting up firewall rules? How do firewall policies differ from a network security policy? How can AlgoSec help with managing your firewall rules? Get the latest insights from the experts Use these six best practices to simplify compliance and risk White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure Solution overview See how this customer improved compliance readiness and risk Case study Choose a better way to manage your network

Enterprises are embracing cloud platforms to drive innovation, enhance operational efficiency, and gain a competitive edge. Cloud... Hybrid Cloud Security Management Securing Cloud-Native Environments: Containerized Applications, Serverless Architectures, and Microservices Malcom Sargla 2 min read Malcom Sargla Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 9/6/23 Published Enterprises are embracing cloud platforms to drive innovation, enhance operational efficiency, and gain a competitive edge. Cloud services provided by industry giants like Google Cloud Platform (GCP), Azure, AWS, IBM, and Oracle offer scalability, flexibility, and cost-effectiveness that make them an attractive choice for businesses. One of the significant trends in cloud-native application development is the adoption of containerized applications, serverless architectures, and microservices. While these innovations bring numerous benefits, they also introduce unique security risks and vulnerabilities that organizations must address to ensure the safety of their cloud-native environments. The Evolution of Cloud-Native Applications Traditionally, organizations relied on on-premises data centers and a set of established security measures to protect their critical applications and data. However, the shift to cloud-native applications necessitates a reevaluation of security practices and a deeper understanding of the challenges involved. Containers: A New Paradigm Containers have emerged as a game-changer in the world of cloud-native development. They offer a way to package applications and their dependencies, ensuring consistency and portability across different environments. Developers appreciate containers for their ease of use and rapid deployment capabilities, but this transition comes with security implications that must not be overlooked. One of the primary concerns with containers is the need for continuous scanning and vulnerability assessment. Developers may inadvertently include libraries with known vulnerabilities, putting the entire application at risk. To address this, organizations should leverage container scanning tools that assess images for vulnerabilities before they enter production. Tools like Prevasio’s patented network sandbox provide real-time scanning for malware and known Common Vulnerabilities and Exposures (CVEs), ensuring that container images are free from threats. Continuous Container Monitoring The dynamic nature of containerized applications requires continuous monitoring to ensure their health and security. In multi-cloud environments, it’s crucial to have a unified monitoring solution that covers all services consistently. Blind spots must be eliminated to gain full control over the cloud deployment. Tools like Prevasio offer comprehensive scanning of asset classes in popular cloud providers such as Amazon AWS, Microsoft Azure, and Google GCP. This includes Lambda functions, S3 buckets, Azure VMs, and more. Continuous monitoring helps organizations detect anomalies and potential security breaches early, allowing for swift remediation. Intelligent and Automated Policy Management As organizations scale their cloud-native environments and embrace the agility that developers demand, policy management becomes a critical aspect of security. It’s not enough to have static policies; they must be intelligent and adaptable to evolving threats and requirements. Intelligent policy management solutions enable organizations to enforce corporate security policies both in the cloud and on-premises. These solutions have the capability to identify and guard against risks introduced through development processes or traditional change management procedures. When a developer’s request deviates from corporate security practices, an intelligent policy management system can automatically trigger actions, such as notifying network analysts or initiating policy work orders. Moreover, these solutions facilitate a “shift-left” approach, where security considerations are integrated into the earliest stages of development. This proactive approach ensures that security is not an afterthought but an integral part of the development lifecycle. Mitigating Risks in Cloud-Native Environments Securing containerized applications, serverless architectures, and microservices in cloud-native environments requires a holistic strategy. Here are some key steps that organizations can take to mitigate risks effectively: 1. Start with a Comprehensive Security Assessment Before diving into cloud-native development, conduct a thorough assessment of your organization’s security posture. Identify potential vulnerabilities and compliance requirements specific to your industry. Understanding your security needs will help you tailor your cloud-native security strategy effectively. 2. Implement Continuous Security Scanning Integrate container scanning tools into your development pipeline to identify vulnerabilities early in the process. Automate scanning to ensure that every container image is thoroughly examined before deployment. Regularly update scanning tools and libraries to stay protected against emerging threats. 3. Embrace Continuous Monitoring Utilize continuous monitoring solutions that cover all aspects of your multi-cloud deployment. This includes not only containers but also serverless functions, storage services, and virtual machines. A unified monitoring approach reduces blind spots and provides real-time visibility into potential security breaches. 4. Invest in Intelligent Policy Management Choose an intelligent policy management solution that aligns with your organization’s security and compliance requirements. Ensure that it offers automation capabilities to enforce policies seamlessly across cloud providers. Regularly review and update policies to adapt to changing security landscapes. 5. Foster a Culture of Security Security is not solely the responsibility of the IT department. Promote a culture of security awareness across your organization. Train developers, operations teams, and other stakeholders on best practices for cloud-native security. Encourage collaboration between security and development teams to address security concerns early in the development lifecycle. Conclusion The adoption of containerized applications, serverless architectures, and microservices in cloud-native environments offers unprecedented flexibility and scalability to enterprises. However, these advancements also introduce new security challenges that organizations must address diligently. By implementing a comprehensive security strategy that includes continuous scanning, monitoring, and intelligent policy management, businesses can harness the power of the cloud while safeguarding their applications and data. As the cloud-native landscape continues to evolve, staying proactive and adaptive in security practices will be crucial to maintaining a secure and resilient cloud environment. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Learn why network security policy management is crucial for insurance companies to safeguard sensitive data, ensure compliance, and mitigate cyber risks effectively. Why Insurance Companies Need Network Security Policy Management ---- ------- Schedule a Demo Select a size ----- Get the latest insights from the experts Choose a better way to manage your network

In this guest blog, Jeff Yager from IT Central Station describes how AlgoSec is perceived by real users and shares how the solution meets... Security Policy Management Taking Control of Network Security Policy Jeff Yeger 2 min read Jeff Yeger Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/30/21 Published In this guest blog, Jeff Yager from IT Central Station describes how AlgoSec is perceived by real users and shares how the solution meets their expectations for visibility and monitoring. Business-driven visibility A network and security engineer at a comms service provider agreed, saying, “ The complete and end-to-end visibility and analysis [AlgoSec] provides of the policy rule base is invaluable and saves countless time and effort .” On a related front, according to Srdjan, a senior technical and integration designer at a major retailer, AlgoSec provides a much easier way to process first call resolutions (FCRs) and get visibility into traffic. He said, “With previous vendors, we had to guess what was going on with our traffic and we were not able to act accordingly. Now, we have all sorts of analyses and reports. This makes our decision process, firewall cleanup, and troubleshooting much easier.” Organizations large and small find it imperative to align security with their business processes. AlgoSec provides unified visibility of security across public clouds, software-defined and on-premises networks, including business applications and their connectivity flows. For Mark G., an IT security manager at a sports company, the solution handles rule-based analysis . He said, “AlgoSec provides great unified visibility into all policy packages in one place. We are tracking insecure changes and getting better visibility into network security environment – either on-prem, cloud or mixed.” Notifications are what stood out to Mustafa K., a network security engineer at a financial services firm. He is now easily able to track changes in policies with AlgoSec , noting that “with every change, it automatically sends an email to the IT audit team and increases our visibility of changes in every policy.” Security policy and network analysis AlgoSec’s Firewall Analyzer delivers visibility and analysis of security policies, and enables users to discover, identify, and map business applications across their entire hybrid network by instantly visualizing the entire security topology – in the cloud, on-premises, and everything in between. “It is definitely helpful to see the details of duplicate rules on the firewall,” said Shubham S., a senior technical consultant at a tech services company. He gets a lot of visibility from Firewall Analyzer. As he explained, “ It can define the connectivity and routing . The solution provides us with full visibility into the risk involved in firewall change requests.” A user at a retailer with more than 500 firewalls required automation and reported that “ this was the best product in terms of the flexibility and visibility that we needed to manage [the firewalls] across different regions . We can modify policy according to our maintenance schedule and time zones.” A network & collaboration engineer at a financial services firm likewise added that “ we now have more visibility into our firewall and security environment using a single pane of glass. We have a better audit of what our network and security engineers are doing on each device and are now able to see how much we are compliant with our baseline.” Arieh S., a director of information security operations at a multinational manufacturing company, also used Tufin, but prefers AlgoSec, which “ provides us better visibility for high-risk firewall rules and ease of use.” “If you are looking for a tool that will provide you clear visibility into all the changes in your network and help people prepare well with compliance, then AlgoSec is the tool for you,” stated Miracle C., a security analyst at a security firm. He added, “Don’t think twice; AlgoSec is the tool for any company that wants clear analysis into their network and policy management.” Monitoring and alerts Other IT Central Station members enjoy AlgoSec’s monitoring and alerts features. Sulochana E., a senior systems engineer at an IT firm, said, “ [AlgoSec] provides real-time monitoring , or at least close to real time. I think that is important. I also like its way of organizing. It is pretty clear. I also like their reporting structure – the way we can use AlgoSec to clear a rule base, like covering and hiding rules.” For example, if one of his customers is concerned about different standards , like ISO or PZI levels, they can all do the same compliance from AlgoSec. He added, “We can even track the change monitoring and mitigate their risks with it. You can customize the workflows based on their environment. I find those features interesting in AlgoSec.” AlgoSec helps in terms of firewall monitoring. That was the use case that mattered for Alberto S., a senior networking engineer at a manufacturing company. He said, “ Automatic alerts are sent to the security team so we can react quicker in case something goes wrong or a threat is detected going through the firewall. This is made possible using the simple reports.” Sulochana E. concluded by adding that “AlgoSec has helped to simplify the job of security engineers because you can always monitor your risks and know that your particular configurations are up-to-date, so it reduces the effort of the security engineers.” To learn more about what IT Central Station members think about AlgoSec, visit our reviews page . To schedule your personal AlgoSec demo or speak to an AlgoSec security expert, click here . Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

With expertise in data management, search algorithms, and AI, Google has created a cloud platform that excels in both performance and... Hybrid Cloud Security Management Improve visibility and identify risk across your Google Cloud environments with AlgoSec Cloud Joseph Hallman 2 min read Joseph Hallman Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 9/12/23 Published With expertise in data management, search algorithms, and AI, Google has created a cloud platform that excels in both performance and efficiency. The advanced machine learning, global infrastructure, and comprehensive suite of services available in Google Cloud demonstrates Google’s commitment to innovation. Many companies are leveraging these capabilities to explore new possibilities and achieve remarkable outcomes in the cloud. When large companies decide to locate or move critical business applications to the cloud, they often worry about security. Making decisions to move certain applications to the cloud should not create new security risks. Companies are concerned about things like hackers getting access to their data, unauthorized people viewing or tampering with sensitive information, and meeting compliance regulations. To address these concerns, it’s important for companies to implement strong security measures in the cloud, such as strict access controls, encrypting data, constantly monitoring for threats, and following industry security standards. Unfortunately, even with the best tools and safeguards in place it is hard to protect against everything. Human error plays a major part in this and can introduce threats with a few small mistakes in configuration files or security rules that can create unnecessary security risks. The CloudFlow solution from AlgoSec is a network security management solution designed for cloud environments. It provides clear visibility, risk analysis, and helps identify unused rules to help with policy cleanup across multi-cloud deployments. With CloudFlow, organizations can manage security policies, better understand risk, and enhance their overall security in the cloud. It offers centralized visibility, helps with policy management, and provides detailed risk assessment. With Algosec Cloud, and support for Google Cloud, many companies are gaining the following new capabilities: Improved visibility Identifying and reduce risk Generating detailed risk reports Optimizing existing policies Integrating with other cloud providers and on-premise security devices Improve overall visibility into your cloud environments Gain clear visibility into your Google Cloud, Inventory, and network risks. In addition, you can see all the rules impacting your Google Cloud VPCs in one place. View network and inherited policies across all your Google Cloud Projects in one place. Using the built-in search tool and filters it is easy to search and locate policies based on the project, region, and VPC network. View all the rules protecting your Google Cloud VPCs in one place. View VPC firewall rules and the inherited rules from hierarchical firewall policies Gain visibility for your security rules and policies across all of your Google Cloud projects in one place. Identify and Reduce Risk in your Cloud Environments CloudFlow includes the ability to identify risks in your Google Cloud environment and their severity. Look across policies for risks and then drill down to look at specific rules and the affected assets. For any rule, you can conveniently view the risk description, the risk remediation suggestion and all its affected assets. Quickly identify policies that include risk Look at risky rules and suggested remediation Understand the assets that are affected Identify risky rules so you can confidently remove them and avoid data breaches. Tip: Hover over the: Description icon : to view the risk description. Remediation icon: to view the remediation suggestion. Quickly create and share detailed risk reports From the left menu select Risk and then use the built-in filters to narrow down your selection and view specific risk based on cloud type, account, region, tags, and severity. Once the selections are made a detailed report can be automatically generated for you by clicking on the pdf report icon in the top right of the screen. Generate detailed risk reports to share in a few clicks. Optimize Existing Policies Unused rules represent a common security risk and create policy bloat that can complicate both cloud performance and connectivity. View unused rules on the Overview page, for each project you can see the number of Google Cloud rules not being used based on a defined analysis period. This information can assist in cleaning the policies and reducing the attack surface. Select analysis period Identify unused rule to help optimize your cloud security policies Quickly locate rules that are not in use to help reduce your attack surface. Integrate with other cloud providers and on-premise security devices Manage Google Cloud projects, other cloud solutions, and on-premise firewall devices by using AlgoSec Cloud along with the AlgoSec Security Management Suite (ASMS). Integrate with the full suite of solutions from AlgoSec for a powerful and comprehensive way to manage applications connectivity across your entire hybrid environment. CloudFlow plus ASMS provides clear visibility, risk identification, and other capabilities across large complex hybrid networks. Resources- Quick overview video about CloudFlow and Google Cloud support For more details about AlgoSec Security Management Suite or to schedule a demo please visit- www.algosec.com Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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Firewall misconfigurations are one of the most common and preventable security issues that organizations face. Comprehensively managing access control, addressing vulnerabilities, and detecting configuration mistakes under these conditions is not easy It’s especially challenging for organizations that use the default firewall rules provided by their vendor. Your firewall policies should reflect your organization’s unique cybersecurity risk profile. This requires some degree of customization,... Firewall Change Management How to fix misconfigured firewalls (and prevent firewall breaches) Kyle Wickert 2 min read Kyle Wickert Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/9/23 Published Firewall misconfigurations are one of the most common and preventable security issues that organizations face. Comprehensively managing access control, addressing vulnerabilities, and detecting configuration mistakes under these conditions is not easy It’s especially challenging for organizations that use the default firewall rules provided by their vendor. Your firewall policies should reflect your organization’s unique cybersecurity risk profile. This requires some degree of customization, and intelligence into kinds of cyber attacks hackers use to target your organization. Understanding security misconfigurations and their impact on network security Security misconfigurations happen when elements of your security tech stack expose preventable vulnerabilities that hackers can exploit. These misconfigurations can take a variety of forms, putting a wide range of security tools and open ports at risk. Network firewall misconfigurations can have a wide-ranging impact on your organization’s overall security posture. Hackers that target vulnerable infrastructure pose a threat to the entire application stack. They may be able to gain access to network services, application servers, and virtual machines. Depending on the specific misconfiguration, they may be able to compromise hardware routers and endpoints as well. In organizations with complex firewall deployments, attackers may be able to exploit misconfigurations, bypass security policies, and escalate their own privileges to make arbitrary changes to firewall security. From this point, attackers can easily modify access control lists (ACLs) to specifically allow the malware they wish to run, compromising the first line of defense against data breaches. This is exactly why Gartner recommends implementing a centralized solution for firewall management . Centralized visibility and control is crucial for maintaining effective firewall configurations and updating them accordingly. Otherwise, ensuring compliance with security best practices like the principle of least privilege becomes difficult or impossible. Routing network traffic through complex cloud-native infrastructure securely requires deep visibility into firewall configuration status, effective authentication processes, and automation-friendly security solutions. How hackers exploit misconfigured firewalls Common misconfigurations include implementing overly permissive rules, disabling critical security features, and neglecting to protect open ports against unauthorized access. This leaves organizations vulnerable to Distributed Denial-of-Service (DDoS) attacks, remote control, and data breaches . Here are some of the ways cybercriminals can exploit misconfigured firewalls: 1. Taking advantage of permissions misconfigurations Overly permissive firewall rules are a common problem among organizations with complex cloud-enabled infrastructure. Often, the organization’s demand for productivity and connectivity take precedence over the need to protect sensitive data from unauthorized network traffic. Additionally, IT team members may misunderstand the cloud provider’s shared responsibility model and assume that the provider has already secured the data center from all potential threats. These situations are particularly risky when the organization is undergoing change. For example, many security professionals start with completely open permissions and tighten them as they learn more about the network’s needs. Obvious and highly visible permissions get secured first, while less visible parts of the security framework are deprioritized – or never addressed at all. Hackers can exploit this situation by focusing on less obvious access points first. Instead of sending malicious traffic to IP addresses associated with core business servers, they might infiltrate the network through an unsecured API, or look for an unpatched operating system somewhere in the network. 2. Exploiting disabled security features Many firewalls offer advanced security features to organizations willing to configure them. However, security teams are often strained for time and resources. They may already be flooded with a backlog of high-priority security alerts to address, making it challenging to spend extra time configuring advanced firewall policies or fine-tuning their security posture. Even organizations that can enable advanced features don’t always do it. Features like leak detection and port scan alerts can put additional strain on limited computing resources, impacting performance. Other features may generate false positives, which only add to the security workload. But many of these features offer clear benefits to organizations that use them. Sophisticated technologies like application and identity-based inspection allow organizations to prioritize firewall performance more efficiently throughout the network. If threat actors find out that advanced security features like these are disabled, they are free to deploy the attack techniques these features protect against. For example, in the case of identity-based inspection, a hacker may be able to impersonate an unidentified administrator-level account and gain access to sensitive security controls without additional authentication. 3. Scanning for unsecured open ports Hackers use specialized penetration testing tools to scan for open ports. Tools like Nmap, Unicornscan , and Angry IP Scanner can find open ports and determine the security controls that apply to them. If a hacker finds out that your ACLs neglect to cover a particular port, they will immediately look for ways to exploit that vulnerability and gain access to your network. These tools are the same network discovery tools that system administrators and network engineers use on a routine basis. Tools like Nmap allow IT professionals to run security audits on local and remote networks, identifying hosts responding to network requests, discovering operating system names and versions, and more. Threat actors can even determine what kind of apps are running and find the version number of those apps. They also allow threat actors to collect data on weak points in your organization’s security defenses. For example, they might identify a healthcare organization using an outdated app to store sensitive clinical trial data. From there, it’s easy to look up the latest patch data to find out what exploits the outdated app is vulnerable to. How to optimize firewall configuration Protecting your organization from firewall breaches demands paying close attention to the policies, patch versions, and additional features your firewall provider offers. Here are three steps security leaders can take to address misconfiguration risks and ensure a robust security posture against external threats: 1. Audit your firewall policies regularly This is especially important for organizations undergoing the transition to cloud-native infrastructure. It’s virtually guaranteed that certain rules and permissions will no longer be needed as the organization adjusts to this period of change over time. Make sure that your firewall rules are constantly updated to address these changes and adapt to them accordingly. Auditing should take place under a strict change management framework . Implement a change log and incorporate it into your firewall auditing workflow so that you can easily access information about historical configuration changes. This change log will provide security professionals with readymade data about who implemented configuration changes, what time those changes took place, and why they were made in the first place. This gives you at-a-glance coverage of historical firewall performance, which puts you one step closer to building a unified, centralized solution for handling firewall policies. 2. Update and patch firewall software frequently Like every element in your security tech stack, firewall software needs to be updated promptly when developers release new patches. This applies both to hardware firewalls operating on-premises and software firewalls working throughout your network. These patches address known vulnerabilities, and they are often the first line of defense against rapidly emerging threats. The sooner you can deploy software patches to your firewalls, the more robust your network security posture will be. These changes should also be noted in a change log. This provides valuable evidence for the strength of your security posture against known emerging threats. If hackers start testing your defenses by abusing known post-patch vulnerabilities, you will be prepared for them. 3. Implement an intrusion detection system (IDS) Firewalls form the foundation of good network security, and intrusion detection systems supplement their capabilities by providing an additional line of defense. Organizations with robust IDS capabilities are much harder to compromise without triggering alerts. IDS solutions passively monitor traffic for signs of potential threats. When they detect a threat, they generate an alert, allowing security operations personnel to investigate and respond. This adds additional layers of value to the basic function of the firewall – allowing or denying traffic based on ACLs and network security rules. Many next-generation firewalls include intrusion detection system capabilities as part of an integrated solutions. This simplifies security management considerably and reduces the number of different devices and technologies security teams must gain familiarity with. Pay attention to firewall limitations – and prepare for them Properly configured firewalls offer valuable security performance to organizations with complex network infrastructure. However, they can’t prevent every cyber attack and block every bit of malicious code. Security leaders should be aware of firewall limitations and deploy security measures that compensate appropriately. Even with properly configured firewalls, you’ll have to address some of the following issues: Zero-day attacks Firewalls may not block attacks that exploit new and undiscovered vulnerabilities. Since these are not previously known vulnerabilities, security teams have not yet had time to develop patches or fixes that address them. These types of attacks are generally able to bypass more firewall solutions. However, some next-generation firewalls do offer advanced features capable of addressing zero-day attacks. Identity-based inspection is one example of a firewall technology that can detect these attacks because it enforces security policies based on user identity rather than IP address. Sandboxes are another next-generation firewall technology capable of blocking zero-day attacks. However, no single technology can reliably block 100% of all zero-day attacks. Some solutions are better-equipped to handle these types of attacks than others, but it takes a robust multi-layered security posture to consistently protect against unknown threats. Timely incident response Firewall configuration plays an important role in incident response. Properly configured firewalls help provide visibility into your security posture in real-time, enabling security teams to create high-performance incident response playbooks. Custom playbooks ensure timely incident response by prioritizing the types of threats found in real-world firewall data. If your firewalls are misconfigured, your incident response playbooks may reflect a risk profile that doesn’t match with your real-world security posture. This can lead to security complications that reduce the effectiveness of incident response processes down the line. Planned outages when updating firewalls Updating firewalls is an important part of maintaining an optimal firewall configuration for your organization. However, the update process can be lengthy. At the same time, it usually requires scheduling an outage in advance, which will temporarily expose your organization to the threats your firewall normally protects against. In some cases, there may be compatibility issues with incoming version of the firewall software being updated. This may lengthen the amount of time that the organization has to endure a service outage, which complicates firewall security. This is one reason why many security leaders intentionally delay updating their firewalls. As with many other aspects of running and maintaining good security policies, effective change management is an important aspect of planning firewall updates. Security leaders should stagger their scheduled updates to avoid reducing risk exposure and provide the organization with meaningful security controls during the update process. Automate change management and avoid misconfigurations with algoSec AlgoSec helps organizations deploy security policy changes while maintaining accuracy and control over their security posture. Use automation to update firewall configuration policies, download new security patches, and validate results without spending additional time and energy on manual processes. Horizon Security Analyzer gives you the ability to discover and map business applications throughout your network. Find out how new security policies will impact traffic and perform detailed simulations of potential security scenarios with unlimited visibility. Schedule a demo to see AlgoSec in action for yourself. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

CIS provides best practices to help companies like yours improve their cloud security posture. You’ll protect your systems against... Cloud Security What is CIS Compliance? (and How to Apply CIS Benchmarks) Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 6/20/23 Published CIS provides best practices to help companies like yours improve their cloud security posture. You’ll protect your systems against various threats by complying with its benchmark standards. This post will walk you through CIS benchmarks, their development, and the kinds of systems they apply to. We will also discuss the significance of CIS compliance and how Prevasio may help you achieve it. What are CIS benchmarks? CIS stands for Center for Internet Security . It’s a nonprofit organization that aims to improve companies’ cybersecurity readiness and response. Founded in 2000, the CIS comprises cybersecurity experts from diverse backgrounds. They have the common goal of enhancing cybersecurity resilience and reducing security threats. CIS compliance means adhering to the Center for Internet Security (CIS) benchmarks. CIS benchmarks are best practices and guidelines to help you build a robust cloud security strategy. These CIS benchmarks give a detailed road map for protecting a business’s IT infrastructure. They also encompass various platforms, such as web servers or cloud bases. The CIS benchmarks are frequently called industry standards. They are normally in line with other regulatory organizations, such as ISO, NIST, and HIPAA. Many firms adhere to CIS benchmarks to ensure they follow industry standards. They also do this to show their dedication to cybersecurity to clients and stakeholders. The CIS benchmarks and CIS controls are always tested through on-premises analysis by leading security firms. This ensures that CIS releases standards that are effective at mitigating cyber risks. How are the CIS benchmarks developed? A community of cybersecurity professionals around the world cooperatively develops CIS benchmarks. They exchange their knowledge, viewpoints, and experiences on a platform provided by CIS. The end result is consensus-based best practices that will protect various IT systems. The CIS benchmark development process typically involves the following steps: 1. Identify the technology: The first step is to identify the system or technology that has to be protected. This encompasses a range of applications. It can be an operating system, database, web server, or cloud environment. 2. Define the scope: The following stage is to specify the benchmark’s parameters. It involves defining what must be implemented for the technology to be successfully protected. They may include precise setups, guidelines, and safeguards. 3. Develop recommendations: Next, a community of cybersecurity experts will identify ideas for safeguarding the technology. These ideas are usually based on current best practices, norms, and guidelines. They may include the minimum security requirements and measures to be taken. 4. Expert consensus review: Thereafter, a broader group of experts and stakeholders assess the ideas. They will offer comments and suggestions for improvement. This level aims to achieve consensus on the appropriate technical safeguards. 5. Pilot testing: The benchmark is then tested in a real-world setting. At this point, CIS aims to determine its efficacy and spot any problems that need fixing. 6. Publication and maintenance: The CIS will publish the benchmark once it has been improved and verified. The benchmark will constantly be evaluated and updated to keep it current and useful for safeguarding IT systems. What are the CIS benchmark levels? CIS benchmarks are divided into three levels based on the complexity of an IT system. It’s up to you to choose the level you need based on the complexity of your IT environment. Each level of the benchmarks offers better security recommendations than the previous level. The following are the distinct categories that benchmarks are divided into: Level 1 This is the most basic level of CIS standards. It requires organizations to set basic security measures to reduce cyber threats. Some CIS guidelines at this level include password rules, system hardening, and risk management. The level 1 CIS benchmarks are ideal for small businesses with basic IT systems. Level 2 This is the intermediate level of the CIS benchmarks. It is suitable for small to medium businesses that have complex IT systems. The Level 2 CIS standards offer greater security recommendations to your cloud platform. It has guidelines for network segmentation, authentication, user permissions, logging, and monitoring. At this level, you’ll know where to focus your remediation efforts if you spot a vulnerability in your system. Level 2 also covers data protection topics like disaster recovery plans and encryption. Level 3 Level 3 is the most advanced level of the CIS benchmarks. It offers the highest security recommendations compared to the other two. Level 3 also offers the Security Technical Implementation Guide (STIG) profiles for companies. STIG are configuration guidelines developed by the Defense Information Systems Agency. These security standards help you meet US government requirements. This level is ideal for large organizations with the most sensitive and vital data. These are companies that must protect their IT systems from complex security threats. It offers guidelines for real-time security analytics, safe cloud environment setups, and enhanced threat detection. What types of systems do CIS benchmarks apply to? The CIS benchmarks are applicable to many IT systems used in a cloud environment. The following are examples of systems that CIS benchmarks can apply to: Operating systems: CIS benchmarks offer standard secure configurations for common operating systems, including Amazon Linux, Windows Servers, macOS, and Unix. They address network security, system hardening, and managing users and accounts. Cloud infrastructure: CIS benchmarks can help protect various cloud infrastructures, including public, private, and multi-cloud. They recommend guidelines that safeguard cloud systems by various cloud service providers. For example, network security, access restrictions, and data protection. The benchmarks cover cloud systems such as Amazon Web Services (AWS), Microsoft Azure, IBM, Oracle, and Google Cloud Platform. Server software: CIS benchmarks provide secure configuration baselines for various servers, including databases (SQL), DNS, Web, and authentication servers. The baselines cover system hardening, patch management, and access restrictions. Desktop software: Desktop apps such as music players, productivity programs, and web browsers can be weak points in your IT system. CIS benchmarks offer guidelines to help you protect your desktop software from vulnerabilities. They may include patch management, user and account management, and program setup. Mobile devices: The CIS benchmarks recommend safeguarding endpoints such as tablets and mobile devices. The standards include measures for data protection, account administration, and device configuration. Network devices: CIS benchmarks also involve network hardware, including switches, routers, and firewalls. Some standards for network devices include access restrictions, network segmentation, logging, and monitoring. Print devices: CIS benchmarks also cover print devices like printers and scanners. The CIS benchmark baselines include access restrictions, data protection, and firmware upgrades. Why is CIS compliance important? CIS compliance helps you maintain secure IT systems. It does this by helping you adhere to globally recognized cybersecurity standards. CIS benchmarks cover various IT systems and product categories, such as cloud infrastructures. So by ensuring CIS benchmark compliance, you reduce the risk of cyber threats to your IT systems. Achieving CIS compliance has several benefits: 1. Your business will meet internationally accepted cybersecurity standards . The CIS standards are developed through a consensus review process. This means they are founded on the most recent threat intelligence and best practices. So you can rely on the standards to build a solid foundation for securing your IT infrastructure. 2. It can help you meet regulatory compliance requirements for other important cybersecurity frameworks . CIS standards can help you prove that you comply with other industry regulations. This is especially true for companies that handle sensitive data or work in regulated sectors. CIS compliance is closely related to other regulatory compliances such as NIST, HIPAA, and PCI DSS. By implementing the CIS standards, you’ll conform to the applicable industry regulations. 3. Achieving CIS continuous compliance can help you lower your exposure to cybersecurity risks . In the process, safeguard your vital data and systems. This aids in preventing data breaches, malware infections, and other cyberattacks. Such incidents could seriously harm your company’s operations, image, and financial situation. A great example is the Scottish Oil giant, SSE. It had to pay €10M in penalties for failing to comply with a CIS standard in 2013. 4. Abiding by the security measures set by CIS guidelines can help you achieve your goals faster as a business. The guidelines cover the most important and frequently attacked areas of IT infrastructure. 5. CIS compliance enhances your general security posture. It also decreases the time and resources needed to maintain security. It does this by providing uniform security procedures across various platforms. How to achieve CIS compliance? Your organization can achieve CIS compliance by conforming to the guidelines of the CIS benchmarks and CIS controls. Each CIS benchmark usually includes a description of a recommended configuration. It also usually contains a justification for the implementation of the configuration. Finally, it offers step-by-step instructions on how to carry out the recommendation manually. While the standards may seem easy to implement manually, they may consume your time and increase the chances of human errors. That is why most security teams prefer using tools to automate achieving and maintaining CIS compliance. CIS hardened images are great examples of CIS compliance automation tools. They are pre-configured images that contain all the necessary recommendations from CIS benchmarks. You can be assured of maintaining compliance by using these CIS hardened images in your cloud environment. You can also use CSPM tools to automate achieving and maintaining CIS compliance. Cloud Security Posture Management tools automatically scan for vulnerabilities in your cloud. They then offer detailed instructions on how to fix those issues effectively. This way, your administrators don’t have to go through the pain of doing manual compliance checks. You save time and effort by working with a CSPM tool. Use Prevasio to monitor CIS compliance. Prevasio is a cloud-native application platform (CNAPP) that can help you achieve and maintain CIS compliance in various setups, including Azure, AWS, and GCP. A CNAPP is basically a CSPM tool on steroids. It combines the features of CSPM, CIEM, IAM, and CWPP tools into one solution. This means you’ll get clearer visibility of your cloud environment from one platform. Prevasio constantly assesses your system against the latest version of CIS benchmarks. It then generates reports showing areas that need adjustments to keep your cloud security cyber threat-proof. This saves you time as you won’t have to do the compliance checks manually. Prevasio also has a robust set of features to help you comply with standards from other regulatory bodies. So using this CSPM tool, you’ll automatically comply with HIPAA, PCI DSS, and GDPR. Prevasio offers strong vulnerability evaluation and management capabilities besides CIS compliance monitoring. It uses cutting-edge scanning algorithms to find known flaws, incorrect setups, and other security problems in IT settings. This can help you identify and fix vulnerabilities before fraudsters can exploit them. The bottom line on CIS compliance Achieving and maintaining CIS compliance is essential in today’s continually changing threat landscape . However, doing the compliance checks manually takes time. You may not also spot weaknesses in your cloud security in time. This means that you need to automate your CIS compliance. And what better solution than a cloud security posture management tool like Prevasio? Prevasio is the ideal option for observing compliance and preventing malware that attack surfaces in cloud assets. Prevasio offers a robust security platform to help you achieve CIS compliance and maintain a secure IT environment. This platform is agentless, meaning it doesn’t run on the cloud like most of its competitors. So you save a lot in costs every time Prevasio runs a scan. Prevaiso also conducts layer analysis. It helps you spot the exact line of code where the problem is rather than give a general area. In the process, saving you time spent identifying and solving critical threats. Try Prevasio today! Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call